Measurement of ultra-low ion-beam energy
Measurement of ion-beam energy is important for assuring equipment operation. When an ion beam is decelerated, its energy becomes very low; the measurement of such low energy is investigated here. Low ion-beam energy has been measured using a retarding field and detector. This research, however, use...
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th-cmuir.6653943832-539472018-09-04T10:03:13Z Measurement of ultra-low ion-beam energy P. Thopan D. Suwannakachorn S. Singkarat L. D. Yu Multidisciplinary Measurement of ion-beam energy is important for assuring equipment operation. When an ion beam is decelerated, its energy becomes very low; the measurement of such low energy is investigated here. Low ion-beam energy has been measured using a retarding field and detector. This research, however, used a deflecting electrostatic field, a simpler and more accurate method. The basic principle of the electrostatic-field application for measuring ion-beam energy is that when an ion beam passes through parallel plates of the electrical field, the beam will be bent from its axial trajectory as a function of the applied field. The bending distance of the ion beam can be used to determine the ion-beam energy. Results of measuring ion-beam energy in this study were compared with theory and simulation results. The SIMION program version 8.0 was used to perform the simulation. A system to measure the ion-beam energy was designed, constructed and installed. The system consisted of a pair of parallel electrode plates, a copper rod measurement piece, a vernier caliper, a stepping motor and a webcam-camera. The entire system was installed under an ion-beam deceleration lens inside the big chamber of the 30-kV bioengineering vertical ion-beam line (CMU3) at Chiang Mai University. The copper rod was moved by the stepping motor to measure the ion-beam current profile, which depended on the beam spot position. The beam profiles were compared between the plates, with and without the electrostatic field, for extracting the ion-beam bending distance and then the ion-beam energy. The ion-beam current, which was on order of 10 nA, was measured by a digital nano-ammeter. Argon ion beams at various energies, ranging from 10 to 20 keV, passed through the deceleration lens resulting in ion energy lower than 1 keV. The measurement results were in good agreement with theoretical and simulated results, demonstrating that the method worked well. 2018-09-04T10:03:13Z 2018-09-04T10:03:13Z 2014-01-01 Journal 16851994 2-s2.0-84937555486 10.12982/cmujns.2014.0062 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84937555486&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/53947 |
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Multidisciplinary P. Thopan D. Suwannakachorn S. Singkarat L. D. Yu Measurement of ultra-low ion-beam energy |
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Measurement of ion-beam energy is important for assuring equipment operation. When an ion beam is decelerated, its energy becomes very low; the measurement of such low energy is investigated here. Low ion-beam energy has been measured using a retarding field and detector. This research, however, used a deflecting electrostatic field, a simpler and more accurate method. The basic principle of the electrostatic-field application for measuring ion-beam energy is that when an ion beam passes through parallel plates of the electrical field, the beam will be bent from its axial trajectory as a function of the applied field. The bending distance of the ion beam can be used to determine the ion-beam energy. Results of measuring ion-beam energy in this study were compared with theory and simulation results. The SIMION program version 8.0 was used to perform the simulation. A system to measure the ion-beam energy was designed, constructed and installed. The system consisted of a pair of parallel electrode plates, a copper rod measurement piece, a vernier caliper, a stepping motor and a webcam-camera. The entire system was installed under an ion-beam deceleration lens inside the big chamber of the 30-kV bioengineering vertical ion-beam line (CMU3) at Chiang Mai University. The copper rod was moved by the stepping motor to measure the ion-beam current profile, which depended on the beam spot position. The beam profiles were compared between the plates, with and without the electrostatic field, for extracting the ion-beam bending distance and then the ion-beam energy. The ion-beam current, which was on order of 10 nA, was measured by a digital nano-ammeter. Argon ion beams at various energies, ranging from 10 to 20 keV, passed through the deceleration lens resulting in ion energy lower than 1 keV. The measurement results were in good agreement with theoretical and simulated results, demonstrating that the method worked well. |
| format |
Journal |
| author |
P. Thopan D. Suwannakachorn S. Singkarat L. D. Yu |
| author_facet |
P. Thopan D. Suwannakachorn S. Singkarat L. D. Yu |
| author_sort |
P. Thopan |
| title |
Measurement of ultra-low ion-beam energy |
| title_short |
Measurement of ultra-low ion-beam energy |
| title_full |
Measurement of ultra-low ion-beam energy |
| title_fullStr |
Measurement of ultra-low ion-beam energy |
| title_full_unstemmed |
Measurement of ultra-low ion-beam energy |
| title_sort |
measurement of ultra-low ion-beam energy |
| publishDate |
2018 |
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https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84937555486&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/53947 |
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